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Self-adaptive intersection signal control method

A signal control and intersection technology, which is applied in the field of self-adaptive intersection signal control, can solve the problems of real-time image processing, such as large amount of calculation, large amount of engineering, and road damage

Inactive Publication Date: 2014-12-24
CHANGAN UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, the calculation of queue length is complicated, usually relying on multiple detectors or using video image data, real-time image processing requires a large amount of calculation, is expensive, and is easily affected by weather, and the reliability of the system is poor
At present, most cities have laid induction coils and other equipment to obtain real-time traffic information such as traffic volume, vehicle occupancy time, road occupancy rate, congestion level and queue length, but the traffic demand in all directions at the intersection is not necessarily balanced. The queue lengths are not necessarily equal, especially in the case of large traffic volume, when the detector is occupied by a vehicle in the queue for a long time, it is impossible to estimate the number of vehicles arriving in real time and the queue length and other information, which leads to vehicle queuing The length calculation accuracy is not high, and the signal timing scheme is not accurate
If multiple detectors are installed on each lane, it will not only cause multiple damages to the original road surface, but also cause a large amount of engineering, inconvenient installation, and low engineering feasibility and implementation operability

Method used

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  • Self-adaptive intersection signal control method
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  • Self-adaptive intersection signal control method

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Experimental program
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Embodiment

[0085] Such as figure 1 At the intersection in , set the east-west direction as the arterial road, and the distance L between the vehicle detector and the stop line a = 80m, the north-south direction is the secondary road, the distance L between the vehicle detector and the stop line b = 60m, the maximum total green light duration G on the main road main is 80s, and the maximum green light duration of secondary roads is G minor 45s, minimum green light duration G min 15s, unit green light change time g lay for 3s.

[0086] Table 1 shows the timing status of signal lamps obtained from 10:00:00 in this embodiment.

[0087] hypothetical moment It is the starting moment of a red light on the main road, and at this moment, the vehicle detector data and signal light phase transformation data of the previous period are statistically obtained, such as: the transition time point T of the straight road A 9:59:10, the transition time T of the straight lane B 9:59:24, the transit...

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Abstract

The invention belongs to the field of urban traffic control, and provides a self-adaptive intersection signal control method. By installing vehicle monitors to detect the number of vehicles, the lengths of vehicle queues are acquired, and a signal control strategy for the next cycle is determined according to the lengths of vehicle queues at an intersection in the previous cycle. The method utilizes the vehicle detectors already arranged in a city to acquire traffic flow data and calculate the length of the queue of each lane, and the signal timing scheme of the next cycle is dynamically adjusted according to the different proportions of queue lengths. Taking a cycle as a unit, a timing scheme is calculated, the load of calculation is low, and moreover, the method also can achieve the purpose that intersection signals can be self-adaptively controlled according to the density of traffic flow. In addition, the algorithm of the method is simple, and the method has low requirement on hardware and construction quantity, and therefore is convenient to popularize.

Description

technical field [0001] The invention belongs to the field of urban traffic control, and in particular relates to an adaptive intersection signal control method. Background technique [0002] Traffic signal control takes the microscopic traffic flow at the intersection as the control object, allocates the right of way of the vehicle at the intersection with the phase and time as the scale, separates the conflicting traffic flow from the time, and conducts reasonable guidance and scheduling of the traffic flow, so as to reduce traffic accidents and improve traffic safety. The purpose of traffic safety and transportation efficiency. [0003] At present, the intersection signal control methods at home and abroad mainly include timing control, induction control and adaptive control. Timing control is suitable for intersections with large traffic volume and uniform traffic distribution; Uneven intersections, but when the traffic volume is heavy, it is impossible to adjust and opt...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G08G1/08
Inventor 安毅生赵祥模贺冰花袁绍欣南春丽姚迪张曼杨峰雷鹏梁超尚龙华
Owner CHANGAN UNIV
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